CHOMPStation2/code/modules/mob/mob_helpers.dm

// fun if you want to typecast humans/monkeys/etc without writing long path-filled lines.
/proc/ishuman(A)
	if(istype(A, /mob/living/carbon/human))
		return 1
	return 0

/proc/ismonkey(A)
	if(A && istype(A, /mob/living/carbon/monkey))
		return 1
	return 0

/proc/isbrain(A)
	if(A && istype(A, /mob/living/carbon/brain))
		return 1
	return 0

/proc/isalien(A)
	if(istype(A, /mob/living/carbon/alien))
		return 1
	return 0

/proc/isalienadult(A)
	if(istype(A, /mob/living/carbon/alien/humanoid))
		return 1
	return 0

/proc/islarva(A)
	if(istype(A, /mob/living/carbon/alien/larva))
		return 1
	return 0

/proc/ismetroid(A)
	if(istype(A, /mob/living/carbon/metroid))
		return 1
	return 0

/proc/isrobot(A)
	if(istype(A, /mob/living/silicon/robot))
		return 1
	return 0

/proc/isanimal(A)
	if(istype(A, /mob/living/simple_animal))
		return 1
	return 0

/proc/iscorgi(A)
	if(istype(A, /mob/living/simple_animal/corgi))
		return 1
	return 0

/*proc/ishivebot(A)
	if(A && istype(A, /mob/living/silicon/hivebot))
		return 1
	return 0*/

/*proc/ishivemainframe(A)
	if(A && istype(A, /mob/living/silicon/hive_mainframe))
		return 1
	return 0*/

/proc/isAI(A)
	if(istype(A, /mob/living/silicon/ai))
		return 1
	return 0

/proc/ispAI(A)
	if(istype(A, /mob/living/silicon/pai))
		return 1
	return 0

/proc/iscarbon(A)
	if(istype(A, /mob/living/carbon))
		return 1
	return 0

/proc/issilicon(A)
	if(istype(A, /mob/living/silicon))
		return 1
	return 0

/proc/isliving(A)
	if(istype(A, /mob/living))
		return 1
	return 0

proc/isobserver(A)
	if(istype(A, /mob/dead/observer))
		return 1
	return 0

proc/isorgan(A)
	if(istype(A, /datum/organ/external))
		return 1
	return 0

/proc/hsl2rgb(h, s, l)
	return


/proc/check_zone(zone)
	if(!zone)	return "chest"
	switch(zone)
		if("eyes")
			zone = "head"
		if("mouth")
			zone = "head"
		if("l_hand")
			zone = "l_arm"
		if("r_hand")
			zone = "r_arm"
		if("l_foot")
			zone = "l_leg"
		if("r_foot")
			zone = "r_leg"
		if("groin")
			zone = "chest"
	return zone


/proc/ran_zone(zone, probability)
	zone = check_zone(zone)
	if(!probability)	probability = 90
	if(probability == 100)	return zone

	if(zone == "chest")
		if(prob(probability))	return "chest"
		var/t = rand(1, 9)
		switch(t)
			if(1 to 3)	return "head"
			if(4 to 6)	return "l_arm"
			if(7 to 9)	return "r_arm"

	if(prob(probability * 0.75))	return zone
	return "chest"


/proc/stars(n, pr)
	if (pr == null)
		pr = 25
	if (pr <= 0)
		return null
	else
		if (pr >= 100)
			return n
	var/te = html_decode(n)
	var/t = ""
	n = length(n)
	var/p = null
	p = 1
	while(p <= n)
		if ((copytext(te, p, p + 1) == " " || prob(pr)))
			t = text("[][]", t, copytext(te, p, p + 1))
		else
			t = text("[]*", t)
		p++
	return html_encode(t)

/*proc/NewStutter(phrase,stunned)
	phrase = html_decode(phrase)

	var/list/split_phrase = dd_text2list(phrase," ") //Split it up into words.

	var/list/unstuttered_words = split_phrase.Copy()
	var/i = rand(1,3)
	if(stunned) i = split_phrase.len
	for(,i > 0,i--) //Pick a few words to stutter on.

		if (!unstuttered_words.len)
			break
		var/word = pick(unstuttered_words)
		unstuttered_words -= word //Remove from unstuttered words so we don't stutter it again.
		var/index = split_phrase.Find(word) //Find the word in the split phrase so we can replace it.

		//Search for dipthongs (two letters that make one sound.)
		var/first_sound = copytext(word,1,3)
		var/first_letter = copytext(word,1,2)
		if(lowertext(first_sound) in list("ch","th","sh"))
			first_letter = first_sound

		//Repeat the first letter to create a stutter.
		var/rnum = rand(1,3)
		switch(rnum)
			if(1)
				word = "[first_letter]-[word]"
			if(2)
				word = "[first_letter]-[first_letter]-[word]"
			if(3)
				word = "[first_letter]-[word]"

		split_phrase[index] = word

	return sanitize(dd_list2text(split_phrase," "))*/


proc/slur(phrase)
	phrase = html_decode(phrase)
	var
		leng=lentext(phrase)
		counter=lentext(phrase)
		newphrase="";newletter=""
	while(counter>=1)
		newletter=copytext(phrase,(leng-counter)+1,(leng-counter)+2)
		if(rand(1,3)==3)
			if(lowertext(newletter)=="o")	newletter="u"
			if(lowertext(newletter)=="s")	newletter="ch"
			if(lowertext(newletter)=="a")	newletter="ah"
			if(lowertext(newletter)=="c")	newletter="k"
		switch(rand(1,15))
			if(1,3,5,8)	newletter="[lowertext(newletter)]"
			if(2,4,6,15)	newletter="[uppertext(newletter)]"
			if(7)	newletter+="'"
			if(9,10)	newletter="<b>[newletter]</b>"
			if(11,12)	newletter="<big>[newletter]</big>"
			if(13)	newletter="<small>[newletter]</small>"
		newphrase+="[newletter]";counter-=1
	return newphrase

/proc/stutter(n)
	var/te = html_decode(n)
	var/t = ""//placed before the message. Not really sure what it's for.
	n = length(n)//length of the entire word
	var/p = null
	p = 1//1 is the start of any word
	while(p <= n)//while P, which starts at 1 is less or equal to N which is the length.
		var/n_letter = copytext(te, p, p + 1)//copies text from a certain distance. In this case, only one letter at a time.
		if (prob(80) && (ckey(n_letter) in list("b","c","d","f","g","h","j","k","l","m","n","p","q","r","s","t","v","w","x","y","z")))
			if (prob(10))
				n_letter = text("[n_letter]-[n_letter]-[n_letter]-[n_letter]")//replaces the current letter with this instead.
			else
				if (prob(20))
					n_letter = text("[n_letter]-[n_letter]-[n_letter]")
				else
					if (prob(5))
						n_letter = null
					else
						n_letter = text("[n_letter]-[n_letter]")
		t = text("[t][n_letter]")//since the above is ran through for each letter, the text just adds up back to the original word.
		p++//for each letter p is increased to find where the next letter will be.
	return copytext(sanitize(t),1,MAX_MESSAGE_LEN)

proc/Gibberish(t, p)
	/* Turn text into complete gibberish! */
	var/returntext = ""
	for(var/i = 1, i <= length(t), i++)

		var/letter = copytext(t, i, i+1)
		if(prob(50))
			if(p >= 70)
				letter = ""

			for(var/j = 1, j <= rand(0, 2), j++)
				letter += pick("#","@","*","&","%","$","/", "<", ">", ";","*","*","*","*","*","*","*")

		returntext += letter

	return returntext

/proc/ninjaspeak(n)
/*
The difference with stutter is that this proc can stutter more than 1 letter
The issue here is that anything that does not have a space is treated as one word (in many instances). For instance, "LOOKING," is a word, including the comma.
It's fairly easy to fix if dealing with single letters but not so much with compounds of letters./N
*/
	var/te = html_decode(n)
	var/t = ""
	n = length(n)
	var/p = 1
	while(p <= n)
		var/n_letter
		var/n_mod = rand(1,4)
		if(p+n_mod>n+1)
			n_letter = copytext(te, p, n+1)
		else
			n_letter = copytext(te, p, p+n_mod)
		if (prob(50))
			if (prob(30))
				n_letter = text("[n_letter]-[n_letter]-[n_letter]")
			else
				n_letter = text("[n_letter]-[n_letter]")
		else
			n_letter = text("[n_letter]")
		t = text("[t][n_letter]")
		p=p+n_mod
	return copytext(sanitize(t),1,MAX_MESSAGE_LEN)


/proc/shake_camera(mob/M, duration, strength=1)
	if(!M || !M.client || M.shakecamera)
		return
	spawn(1)
		var/oldeye=M.client.eye
		var/x
		M.shakecamera = 1
		for(x=0; x<duration, x++)
			M.client.eye = locate(dd_range(1,M.loc.x+rand(-strength,strength),world.maxx),dd_range(1,M.loc.y+rand(-strength,strength),world.maxy),M.loc.z)
			sleep(1)
		M.shakecamera = 0
		M.client.eye=oldeye


/proc/findname(msg)
	for(var/mob/M in world)
		if (M.real_name == text("[msg]"))
			return 1
	return 0


/mob/proc/abiotic(var/full_body = 0)
	if(full_body && ((src.l_hand && !( src.l_hand.abstract )) || (src.r_hand && !( src.r_hand.abstract )) || (src.back || src.wear_mask)))
		return 1

	if((src.l_hand && !( src.l_hand.abstract )) || (src.r_hand && !( src.r_hand.abstract )))
		return 1

	return 0